) Use the space below roughly sketch the titration curve youwould expect for a titration of
a strong acid with a weak base, a weak acid with a strong base,and for a diprotic acid with
a strong base:
2.) A 20.00 mL sample of a diprotic acid H2A was titrated with0.100 M NaOH. The first
equivalence point was reached after the addition of 14.98 mL ofbase. The second
equivalence point was reached after the addition of 30.03 mL.Use these two data points to
calculate two values for the molarity of H2A in the originalsample. What is the average
experimentally determined Molarity?
3.) The pH after addition of 7.49 mL of 0.100 M NaOH was 3.70,and the pH after the
addition of 22.52 mL NaOH was 7.10.
Use these data points to calculate Ka1 and Ka2 for H2A.
4.) The initial pH of the sample (before NaOH addition) was1.91. Use this value to calculate
Ka1. Does this agree with Ka1 calculated above using V1/2?
Please show steps and give reason. thanks.
) Use the space below roughly sketch the titration curve youwould expect for a titration of
a strong acid with a weak base, a weak acid with a strong base,and for a diprotic acid with
a strong base:
2.) A 20.00 mL sample of a diprotic acid H2A was titrated with0.100 M NaOH. The first
equivalence point was reached after the addition of 14.98 mL ofbase. The second
equivalence point was reached after the addition of 30.03 mL.Use these two data points to
calculate two values for the molarity of H2A in the originalsample. What is the average
experimentally determined Molarity?
3.) The pH after addition of 7.49 mL of 0.100 M NaOH was 3.70,and the pH after the
addition of 22.52 mL NaOH was 7.10.
Use these data points to calculate Ka1 and Ka2 for H2A.
4.) The initial pH of the sample (before NaOH addition) was1.91. Use this value to calculate
Ka1. Does this agree with Ka1 calculated above using V1/2?
Please show steps and give reason. thanks.